RU162306U1 - DEVICE FOR HEATING INFUSION SOLUTIONS - Google Patents

Abstract

A device for heating infusion solutions containing a power source, a heating element, a liquid crystal display of the target heating temperature associated with the microcontroller of the thermostatic element, forming a control part, characterized in that the microcontroller is connected to a temperature sensor installed after the heating element, and to a thermoelectric module, which together with a heating section adapted for two standard infusion lines and a ventilated heat exchanger forms a work I feel the part of the device.

Description

The utility model relates to medicine, in particular to equipment for infusion therapy, and can be used in the process of introducing drugs and drugs into a patient's vein.

The urgency of the problem today is justified by the occurrence of specific complications from the peripheral veins that arise in patients during the production of intravenous injections of refrigerated drugs that are stored in pharmacy warehouses of medical organizations at low temperatures.

It was also established that heating infusion media to values that are comfortable for the body significantly increases the effectiveness of intravenous infusions, eliminating the possibility of various complications in patients. [Frank, S. Perioperative maintenance of normothermia reduces the incidence of morbid cardiac events: a randomized clinical trial / S. Frank, L. Fleisher, M. Breslow // JAMA. - 2007. - No. 7. - P. 127-133; Ferrara, A. Hypothermia and acidosis worsen coagulopathy in the patient requiring massive transfusion / A. Ferrara, J. MacArthur // Am J of surgery. - 2010. - No. 16. - P. 51-58.].

A device for normothermic infusion therapy, consisting of a sealed heat exchanger with a liquid coolant. The disadvantages of this device are the large overall dimensions and problems with sealing the infusion line, which can lead to injury to the patient. [RF patent No. 2285544, IPC A61M 5/14, 2004].

A useful model is known in which a heating element and a thermoelectric module are used, which makes it possible to achieve a wider temperature range of the infused solution. The device’s design includes two temperature sensors, an optical light refraction sensor, a microcontroller, a digital-to-analog converter, a Peltier semiconductor element, heating elements, a digital panel with buttons, three liquid crystal displays, contact wires and a power source. The disadvantage of this device is the limited technical and operational characteristics. [RF patent No. 134794, IPC A61N 5/44, 2013].

This device is taken as a prototype.

The objective of the proposed utility model is to expand the technical and operational characteristics of the device for heating infusion solutions. The result of creating a utility model is the ability to use the device in the provision of medical care in emergency situations (in an ambulance, ambulance, etc.).

The device includes a heating element made in the form of a thermoelectric module, which is tightly connected to the heating section. An infusion line is placed in the grooves of the heating section. The thermoelectric module heats the section and accordingly heats the infusion solution passing through the line. The heating element and the heating section form the working part of the device. The required heating temperature is set on the thermostatic element, which controls the operation of the entire device and is the control part. The thermoelectric module is connected directly to the thermostatic part. The main part of the thermostatic element is a microcontroller to which a sensor and a liquid crystal display are connected. The target temperature is set on the LCD. A sensor installed after the heating section measures the temperature on the infusion line. On the back of the device there is a ventilated heat sink for implementing the cooling mode and a control and measuring device, in which a voltmeter-ammeter is selected.

The controlled heating and temperature control of the drug solution at the outlet is ensured by the coordinated operation of the thermoelectric module and sensor via a microcontroller. The use of a primary infusible solution with a wider temperature range from 0 ° C to + 60 ° C is possible due to the operation of the device both in heating mode and in cooling mode.

Comparison of the proposed device with others known in the field of medicine, showed its compliance with the criteria of a utility model.

The utility model is illustrated by graphic material. In FIG. 1 shows a structural diagram of a technical device for heating infusion solutions; in FIG. 2 shows a diagram of a heating section with a heating element; in FIG. 3 shows a structural diagram of the rear of the device, where 1 is a bottle with a solution; 2 - a wheel for adjusting the flow rate; 3 - infusion line; 4 - control part; 5 - liquid crystal display; 6 - buttons; 7 - working part, 8 - sensor; 9 - case; 10 - power source; 11 - grooves for a standard infusion line; 12 - heating element; 13 - ventilated heat sink; 14 - button enable ventilated heat sink; 15 is a control and measuring device.

The device is used as follows. The body of the device 9 is mounted on a drip stand. The infusion line 3 is installed in the working part 7 in the grooves of the heating section 11. Using the buttons 6 on the control part 4, the target heating temperature and additional characteristics are set - operation mode, hysteresis step. The target temperature is displayed on the LCD 5. After setting the target temperature, the device starts to work. Within 30 seconds, the device is warming up, after which the wheel for adjusting the flow rate 2 opens. The solution flows from the bottle 1 along the infusion line 3 placed in the device and heats up to the target temperature. The sensor 8 registers the temperature of the infusion line 3 and, if it does not match the target temperature, sends a signal to the microcontroller of the control part 4, which corrects the operation of the heating element. The device is powered by a power source 10. The measuring device 15 captures the change in parameters in the system.

When the device is in cooling mode, it is necessary to turn on the ventilated heat sink 13 using the button 14. The ventilated heat sink 13 is necessary in order to further cool the thermoelectric module for more efficient operation of the device.

The device works automatically.

The proposed device can and should be used in any healthcare system when conducting infusion therapy.

Claims (1)

A device for heating infusion solutions containing a power source, a heating element, a liquid crystal display of the target heating temperature associated with the microcontroller of the thermostatic element, forming a control part, characterized in that the microcontroller is connected to a temperature sensor installed after the heating element, and to a thermoelectric module, which together with a heating section adapted for two standard infusion lines and a ventilated heat exchanger forms a work I feel the part of the device.

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